[#comparison]

:idprefix: comparison_

= Comparison with Associative Containers

[caption=, title='Table {counter:table-counter} Interface differences']
[cols="1,1", frame=all, grid=rows]
|===
|Associative Containers |Unordered Associative Containers

|Parameterized by an ordering relation `Compare`
|Parameterized by a function object `Hash` and an equivalence relation `Pred`

|Keys can be compared using `key_compare` which is accessed by member function `key_comp()`, values can be compared using `value_compare` which is accessed by member function `value_comp()`.
|Keys can be hashed using `hasher` which is accessed by member function `hash_function()`, and checked for equality using `key_equal` which is accessed by member function `key_eq()`. There is no function object for compared or hashing values.

|Constructors have optional extra parameters for the comparison object. 
|Constructors have optional extra parameters for the initial minimum number of buckets, a hash function and an equality object.

|Keys `k1`, `k2` are considered equivalent if `!Compare(k1, k2) && !Compare(k2, k1)`. 
|Keys `k1`, `k2` are considered equivalent if `Pred(k1, k2)`

|Member function `lower_bound(k)` and `upper_bound(k)`
|No equivalent. Since the elements aren't ordered `lower_bound` and `upper_bound` would be meaningless.

|`equal_range(k)` returns an empty range at the position that `k` would be inserted if `k` isn't present in the container.
|`equal_range(k)` returns a range at the end of the container if `k` isn't present in the container. It can't return a positioned range as `k` could be inserted into multiple place. To find out the bucket that `k` would be inserted into use `bucket(k)`. But remember that an insert can cause the container to rehash - meaning that the element can be inserted into a different bucket.

|`iterator`, `const_iterator` are of the bidirectional category.
|`iterator`, `const_iterator` are of at least the forward category.

|Iterators, pointers and references to the container's elements are never invalidated.
|<<buckets_iterator_invalidation,Iterators can be invalidated by calls to insert or rehash>>. Pointers and references to the container's elements are never invalidated.

|Iterators iterate through the container in the order defined by the comparison object.
|Iterators iterate through the container in an arbitrary order, that can change as elements are inserted, although equivalent elements are always adjacent.

|No equivalent
|Local iterators can be used to iterate through individual buckets. (The order of local iterators and iterators aren't required to have any correspondence.)

|Can be compared using the `==`, `!=`, `<`, `\<=`, `>`, `>=` operators.
|Can be compared using the `==` and `!=` operators.

|
|When inserting with a hint, implementations are permitted to ignore the hint.

|`erase` never throws an exception
|The containers' hash or predicate function can throw exceptions from `erase`.

|===

---

[caption=, title='Table {counter:table-counter} Complexity Guarantees']
[cols="1,1,1", frame=all, grid=rows]
|===
|Operation |Associative Containers |Unordered Associative Containers

|Construction of empty container
|constant
|O(_n_) where _n_ is the minimum number of buckets.

|Construction of container from a range of _N_ elements
|O(_N log N_), O(_N_) if the range is sorted with `value_comp()`
|Average case O(_N_), worst case O(_N^2^_)

|Insert a single element
|logarithmic
|Average case constant, worst case linear

|Insert a single element with a hint
|Amortized constant if `t` elements inserted right after hint, logarithmic otherwise
|Average case constant, worst case linear (ie. the same as a normal insert).

|Inserting a range of _N_ elements
|_N_ log(`size()` + _N_)
|Average case O(_N_), worst case O(_N_ * `size()`)

|Erase by key, `k`
|O(log(`size()`) + `count(k)`)
|Average case: O(`count(k)`), Worst case: O(`size()`)

|Erase a single element by iterator
|Amortized constant
|Average case: O(1), Worst case: O(`size()`)

|Erase a range of _N_ elements
|O(log(`size()`) + _N_)
|Average case: O(_N_), Worst case: O(`size()`)

|Clearing the container
|O(`size()`)
|O(`size()`)

|Find
|logarithmic
|Average case: O(1), Worst case: O(`size()`)

|Count
|O(log(`size()`) + `count(k)`)
|Average case: O(1), Worst case: O(`size()`)

|`equal_range(k)`
|logarithmic
|Average case: O(`count(k)`), Worst case: O(`size()`)

|`lower_bound`,`upper_bound`
|logarithmic
|n/a

|===
